Tuesday, January 28, 2014

Pete Seeger is dead. That means something to those of us who grew up in the 1960s. It was a time when opposition to war was so strong and so powerful that we thought it might bring an end to all wars.

We were so naive.

Peter Seeger wrote one of the most famous anti-war songs of all time, "Where have all the flowers gone." Peter, Paul, and Mary made it a big hit—and so did others. Here's Pete Seeger singing with them for the last time. This should be the anthem that marks the 100th anniversary of the beginning of World War I.

When will we ever learn?

We will be in Greenwich Village this weekend and I'll be thinking of Pete Seeger. Seeger also wrote "Turn! Turn! Turn!" Here's the best version by the Byrds: "A time for peace, I swear it's not too late."

Monday, January 27, 2014

John Hawks is a pretty cool guy. He studies anthropology with a special emphasis on the genetics of human evolution over the past million years or so. Right now he's in Ethiopia looking at fossils. I visited him a year ago at his lab in Madison, Wisconsin.

He written a summary of seven things about evolution. You should read what he has to say to see if you know enough about evolution. Here's a list of the seven things but each one requires a bit of explanation.

Last week's molecule was cholesterol [Monday's Molecule #229]. The figure shows how the molecule would look in a lipid bilayer (membrane). The winner was Tommy Stuleanu.

This week's molecule (below) is going to be hard. I won't be surprised if nobody gets the right answer. It's a key intermediate in an extremely important reaction. You need to give the common name AND the the overall reaction. Name the enzyme as well.

Email your answer to me at: Monday's Molecule #230. I'll hold off posting your answers for at least 24 hours. The first one with the correct answer wins. I will only post the names of people with mostly correct answers to avoid embarrassment. The winner will be treated to a free lunch.

There could be two winners. If the first correct answer isn't from an undergraduate student then I'll select a second winner from those undergraduates who post the correct answer. You will need to identify yourself as an undergraduate in order to win. (Put "undergraduate" at the bottom of your email message.)

Friday, January 24, 2014

Massimo Pigliucci doesn't get enough respect. He's upset by the "New Atheists" who place a great deal of emphasis on the scientific way of knowing and demand evidence that any other way of knowing is successful. These mean New Atheists (I count myself as one of them) use a very broad definition of science that includes most of the admirable activities of philosophers. Pigliucci is mostly a philosopher and he doesn't think that philosophy is getting enough respect from the New Atheists.

I recently re-watched a program on The Agenda about high school education and what needs to be done to make it better. The broadcast was from the Perimeter Institute in Waterloo, Ontario, Canada and it featured the results of a conference on learning called the "Equinox Summit" organized by the Waterloo Global Science Initiative in collaboration with the Perimeter Institute. You can watch the final episode of the TV show at: The Agenda: What's Necessary? What's Possible?.

If you are interested in this subject, as I am, you should watch this show since it gives you a good perspective on what the "best minds" are thinking. You can make up your own mind about whether this is encouraging or not.

Here's a short video on the summit ...

The communique from Equinox Summit: Learning 2030 isn't very long so you can read it quickly. Here are the goals that this group decided on.

In order for high school graduates to reach their full potential in life, they need to be:

lifelong learners who can identify and synthesize the right knowledge to address a wide range of challenges in a complex, uncertain world

literate, numerate, and articulate

creative, critical thinkers

able to collaborate effectively with others, especially those of different abilities and backgrounds

open to failure as an essential part of progress

adaptable and resilient in the face of adversity

aware of the society they live in and able to understand the different perspectives of others

self-aware and cognizant of their own strengths and limitations

entrepreneurial, self-motivated, and eager to tackle the challenges and opportunities of their world

To achieve these goals, we require a radically di fferent structure for learning in 2030, one in which traditional concepts of classes, courses, timetables, and grades are replaced by more flexible, creative and student-directed forms of learning. This develops deep conceptual understanding, which can then be applied in other contexts.

There's nothing radical about these goals. They're pretty much the same goals that any conference in the 1960s would have come up with. The only really new buzzword is "entrepreneurial"—that's borrowed from business and it wouldn't have been popular in the 1960s. Today every high school student has to be an entrepreneur because by 2030 nobody will be working for anyone else. They'll all be running their own businesses.1

I've been trying to teach creative and critical thinking for a long time and I haven't come up with any really good ideas. It's probably because I'm too old. You should watch the Agenda show to see how young people are going to solve these problems.

But here's a question that occurs to me as I'm thinking critically about this problem. Let's assume that we can achieve all those goals. Let's assume that in order to graduate from high school you have to have learned how to think critically; be literate, numerate, and articulate; be able to collaborate, be entrepreneurial, be adaptable, etc.

They are laudable goals that I support, but what percentage of students entering high school can achieve them? I'm thinking that, with lots of resources and excellent teachers, it might be possible for about 50% of high school students to reach these lofty goals. The rest are going to achieve the goals of learning to be "open to failure as an essential part of progress" and how to be "adaptable and resilient in the face of adversity."

I think we might have trouble convincing most societies, and most governments, that a 50% graduation rate from high school is the price of higher standards.

I'm not even sure that all of the students graduating from the University of Toronto are literate, numerate, articulate, critical thinkers.

1. This will save enormous amounts of tax dollars because nobody will be working for the government.

Thursday, January 23, 2014

John Brockman is a famous literary agent. Over the years he has assembled a group of intellectuals, and people who aspire to be intellectuals. Every year they publish short articles on the question of the year at the Edge. Here's this year's question: annual question.

Science advances by discovering new things and developing new ideas. Few truly new ideas are developed without abandoning old ones first. As theoretical physicist Max Planck (1858-1947) noted, "A new scientific truth does not triumph by convincing its opponents and making them see the light, but rather because its opponents eventually die, and a new generation grows up that is familiar with it." In other words, science advances by a series of funerals. Why wait that long?

WHAT SCIENTIFIC IDEA IS READY FOR RETIREMENT?

Ideas change, and the times we live in change. Perhaps the biggest change today is the rate of change. What established scientific idea is ready to be moved aside so that science can advance?

There was a time—about a decade ago—when reading the answers to the question was exciting and stimulating.

Jerry Coyne picks two answers that deal with evolution: The Edge question: two bad answers about evolution. Roger Highfield's answer to the question of what idea should be retired is "Evolution is true." Kevin Kelly thinks that the idea of "Fully random mutations" should be tossed in the scrap heap of history.

Jerry shows us why these guys are not intellectuals. Read his blog post.

Lest you think that Jerry found the only bad examples, let me point out another one. Athena Vouloumanos is a psychologist at New York University. The idea that she wants to retire is "Natural Selection is the Only Engine of Evolution." Excellent, I thought, at last somebody has a good answer. Alas, here's what she says ...

Epigenetic control of gene expression contributes to cells in a single organism (which share the same DNA sequence) developing differently into e.g. heart cells or neurons. But the last decade has shown actual evidence–and possible mechanisms–for how the environment and the organism's behavior in it might cause heritable changes in gene expression (with no change in the DNA sequence) that are passed onto offspring. In recent years, we have seen evidence of epigenetic inheritance across a wide range of morphological, metabolic, and even behavioral traits.

The intergenerational transmission of acquired traits is making a comeback as a potential mechanism of evolution. It also opens up the interesting possibility that better diet, exercise, and education which we thought couldn't affect the next generation–except with luck through good example–actually could.

If I had to give a reason why natural selection is not the only engine of evolution I would have picked something very different—something that's been around, and proven, for decades. Epigenetics requires DNA sequences and proteins and if epigenetic modification of a specific DNA site provides a selective advantage under some circumstances then that's natural selection in action.

The Centre for Inquiry Canada is promoting an upcoming debate between Justin Trottier and Philip Cleevely on the topic "Is There a God."

We know the answer but it still promises to be a fun evening. All the cool people will be there. I'm going to be there too. Email me if you want to join us for dinner before the event. I'll invite some of the cool people like Veronica Abbass and Kevin Smith.

At the first event of the series, Fr. Philip Cleevely (Catholic priest and philosophy professor) and Justin Trottier (founder of the Centre for Inquiry Canada) will argue the question, "Is There a God?" The debate will be moderated by Stephen LeDrew (host/commentator of CP24).

Fr. Philip Cleevely, C.O. was born in England in 1966. Educated in English Literature and Philosophy at Oxford and Cambridge Universities (UK) and in Toronto, he joined the Catholic Church in 1989. For years later, he entered a religious community in Birmingham, England called the Oratory of St. Philip Neri. Following theological studies in Rome, he was ordained to the priesthood in 2001. At the beginning of 2011, he transferred permanently to the Oratory community in Toronto, where he teaches Philosophy and Theology at St Philip’s Seminary.

Justin Trottier is Founder and Ambassador for the Centre for Inquiry Canada, an educational charitable organization advancing science and secularism. He is a board member of the Canadian Secular Alliance and a regular spokesperson on church-state separation, skeptical inquiry and fundamental freedoms. He hosts Think Again! TV, appears regularly on the John Oakley Show’s Culture War on AM640 Toronto radio and the Conspiracy Show on Vision TV, and publishes on the National Post’s religion blog. He ran as a candidate in the 2011 Ontario provincial election. With a passion for science education, Justin also hosts The Star Spot, a space sciences themed podcast and radio show

After-party:
After the event, all of our atheist, freethinking, and skeptical members, guests and friends are invited to join us at:

Rufina Kim has re-started the discussion group we had last year. Join us for an evening of interesting conversation in room 5243 on the 5th floor of the Medical Sciences Building at the University of Toronto (Toronto, Canada). Bring your own food and beverage. The date is Wednesday, January 29, 2014 and the time is 6pm.

Is there a God? Why is the majority of the global population religious (and why are some not)? Why does religious faith lead to resistance in the face of scientific evidence? Why are research findings in evolutionary biology and cosmology still contentious among the public, while those in chemistry and physiology are not? What are the implications of religious belief in scientific progress?

These are some of the questions we will delve into at our next Thoughts on Science (TOS) meeting. Individuals of all worldviews are encouraged to attend to enlighten and be enlightened.

He writes a regular column for The Irish Times on the relationship between science and religion. He's a Roman Catholic.

I'm interested in the conflict between science and religion and I usually pay attention to anything that John Wilkins recommends so I looked at this article. I think it might be fun to examine it to see how some theists think about the issue. Let's see how he starts out ...

There's a little kerfluffle in the blogosphere because an anonymous blogger has been outed. Michael Eisen posted an interesting comment of the episode and I want to add my 2 cents to something he says at: On anonymity in science and on Twitter. Here's the part I want to address ...

A lot of people who I interact with on Twitter, and whose blogs I read, have chosen to tweet and write under pseudonyms. This puzzled me at first, but I have come to realize that there are a LOT of good reasons for people to mask their real identities online.

Anonymity allows people to express their opinions and relate their experiences without everything they say becoming part of their personal permanent record. It affords people who are marginalized or in tenuous positions a way to exist online without fear of retribution. Pseudonyms help create a world where ideas matter more than credentials. And they provide some kind of buffer between people – especially women – and the nastier sides of the internet.

The myriad and diverse pseudonymous voices out there make the internet a richer and more interesting place. Maybe it’s weird, but I consider many of these people whom I’ve never met and whose real identities I don’t know to be my friends.

Here's the problem. I agree with everything that Michael says but there's still something about hiding behind a pseudonym that makes me uneasy. I much prefer dealing with people who use their real names. I grew up believing that it was admirable to stand up and be accountable for your beliefs and opinions no matter what the consequences.

Yes, I'm well aware of the fact that it's a lot easier for a tenured professor to say this than for someone who is in a much more vulnerable position. Michael Eisen also knows this—read his post. That's part of the problem. We understand that the "consequences" of speaking out against authority can be quite severe and we both understand that there's value in hearing from certain anonymous voices.

I guess where I differ from Michael Eisen is that right now I don't think I follow any blogger whose identity isn't known to me. It may be true in theory that ideas matter more than identity but, in reality, there just aren't very many examples. On the other hand, there are lots of examples where people use anonymity to say things they would never say in public even if their identity was concealed.

Does the upside of anonymity make up for the downside? That's the real question. I don't know the answer but I'm leaning toward "no."

I'd like to live in a society where you could never be punished for anything you say or believe. It makes me uneasy to live in a society that accepts the idea that you will be punished for your opinion and sets up ways of permitting people to say whatever they want without having to face any consequences. It seems like that's a way of giving up on the fight for freedom of expression and legitimizing the idea of systemic intolerance.

I try to get my students to speak up during class and express their views and opinions. I think it's an essential component of learning how to think critically. I try and get them to write essays where they defend a controversial idea, even if it's unpopular. I don't think it's a good idea if it becomes the accepted norm that you can only do this if you can be assured that nobody will find out who you are.

(I know most of the people who comment on Sandwalk but there are some who use pseudonyms. There's a good correlation between people who comment anonymously and those whose ideas don't deserve respect. There's also a powerful correlation between those who use their real names and those ideas are worth listening to even if they disagree with mine.

That's doesn't mean you shouldn't comment using a pseudonym. Just be aware of the company you're keeping.)

Monday, January 20, 2014

Last week's molecule was NADP⊕ or nicotinamide adenine dinucleotide phosphate. That was an easy one [Monday's Molecule #228 ]. The winner was Tom Mueller.

This week's molecule (below) is going to be a bit of a challenge because you can't see all of the hydrogen atoms. It's a very common molecule. All you have to do is supply the common name and NOT the IUPAC systematic name that correctly identifies the exact molecule shown in the image. However, if anyone wants to supply the systematic name, feel free to do so.

Email your answer to me at: Monday's Molecule #229. I'll hold off posting your answers for at least 24 hours. The first one with the correct answer wins. I will only post the names of people with mostly correct answers to avoid embarrassment. The winner will be treated to a free lunch.

There could be two winners. If the first correct answer isn't from an undergraduate student then I'll select a second winner from those undergraduates who post the correct answer. You will need to identify yourself as an undergraduate in order to win. (Put "undergraduate" at the bottom of your email message.)

I've been teaching my students about random genetic drift, phylogenetic trees, and the molecular clock. It's hard for undergraduates to understand that trees based on sequences are reflections of the fixation of nearly neutral alleles by random genetic drift. That's because they, like almost everyone else, think of evolution in terms of natural selection and adaptation.

It's even harder to grasp the idea of a molecular clock even though it's been around for fifty years. It was back in the 1960s that scientists like Emanual Margoliash noted that the rate of substitution of amino acids in every lineage was remarkably similar [The Modern Molecular Clock]. We now know that this is because the alleles are fixed by random genetic drift and that the rate of fixation by drift depends only on the mutation rate. It looks like the mutation rate is relatively constant in all lineages (bacteria, protozoa, plants, animals, etc.). This isn't a big shock since the vast majority of mutations are due to errors in DNA replication and the fundamental biochemistry of DNA replication and repair are similar in all species.

There's a big difference between publishing the complete sequence of a genome and having a highly accurate "finished" version that's fully annotated. You may be surprised to learn that there aren't very many high quality genomes of eukaryotes—especially vertebrates.

That's why I was interested in a paper published last April on the zebrafish genome. The authors have produced a high quality reference genome that will serve the scientific community (Howe et al. 2013).

Sequencing and assembly are highly automated and there are several programs that will find genes and other interesting bits of a draft genome. It's a lot more work to finish off the sequence by filling the gaps and it's even more work to annotate and check the sequences. Much of this work is labor intensive and expensive and that's why there are so many unfinished sequences in the literature.

I wasn't surprised to see that the original paper on the annotated zebrafish genome had 171 authors although that did seem a bit excessive. It meant that each author contributed an average of 0.6% to the final result. Some of them must have made a much smaller contribution. I wonder if every author read and approved the paper before publication?

Apparently there weren't enough authors. The January 9, 2014 edition of Nature contains a Corrigendum (correction) to the zebrafish paper. Five other authors were "inadvertantly ommitted" from the list bringing the total to 176 authors. In addition, the names of three other authors were spelled incorrectly in the original publication last April. I don't know why it took eight months before anyone noticed.

That just goes to show you that modern scientists have to deal with problems that us old fogies never encountered. I never had to spent more that a few seconds writing down the names of the authors on any of my papers. Today you need data management software to keep track of your authors.

Friday, January 17, 2014

Some of us have been trying to educate the IDiots for over twenty years. It can be very, very, frustrating.

The issue of junk DNA is a case in point. We've been trying to explain the facts to people like Casey Luskin. I know he's listening because he comments on Sandwalk from time to time. Surely it can't be that hard? All they have to do is acknowledge that "Darwinians" are opposed to junk DNA because they think that natural selection is very powerful and would have selected against junk DNA. All we're asking is that they refer to "evolutionary biologists" when they talk about junk DNA proponents.

We've also pointed out, ad nauseam, that no knowledgeable scientist ever said that all noncoding DNA was junk. We just want the IDiots to admit that there were some smart scientists who knew about functional noncoding DNA—like the genes for ribosomal RNAs, origins of replication, and centromeres.

There's plenty of evidence that most of the DNA in mammalian genomes is junk [Five Things You Should Know if You Want to Participate in the Junk DNA Debate]. There's also plenty of evidence that as much as 10% of these genomes are functional in some way or another. This is a lot more DNA than the amount in coding regions but that shouldn't surprise anyone since we've known about functional noncoding DNA for half a century.

Lot's of genes specify functional RNA molecules. The best known ones are the genes for ribosomal RNAs, tRNAs, the spliceosomal RNAs, and a variety of other catalytic RNAs. A host of small regulatory RNAs have been characterized in bacteria over the past five decades (Waters and Storz, 2009) and in the past few decades a variety of different types of small RNAs have been identified in eukaryotes (see Sharp, 2009). These include miRNAs, siRNAs, piRNAs, and others (Malone and Hannon, 2009; Carthew and Sontheimer, 2009).

The group mapped millions of transcription factor binding sites in the human genome and discovered that 1.8% of them were in exons (coding regions). They assumed that these were functional—they play a role in regulating gene expression. Thus the nucleotide binding sites are also codons meaning that the sequence specifies two different kinds of information. The workers named these sequences "duons."

Wednesday, January 15, 2014

Michael Egnor is a proponent of Intelligent Design Creationism. He's a neurosurgeon practicing on Long Island (New York, USA) and a frequent contributor to creationist blogs. He also likes to comment on Sandwalk from time to time even though it makes him look foolish.

Speaking of looking foolish, he recently got upset about the idea that science and religion are in conflict. He decided to explain how science shows us that God exists. Read it on his blog at: God, in Larry Moran's nose.

This is not comedy or satire. He really believes what he writes.

The proof of God's existence is in Larry Moran's nose, and everywhere, in every atom.

The fact that any subatomic particle moves in a predictable fashion-- let alone in a fashion as mathematically elegant as quantum mechanics-- is straightforward evidence for God's existence. It is, in fact, God's handiwork, manifest everywhere and always.

Monday, January 13, 2014

Richard Lenski's long-term evolution experiment (LTEE) has yielded a number of interesting results over the past two decades. Back in 1988, he set up twelve flasks of E. coli B growing in minimal medium. The cultures were diluted 1/100 every day. There were 6.64 generations per day or almost 2,500 per year. By now, the cultures have evolved for 60,000 generations.

Last week's molecule was arachidonate, one of the key intermediates in the synthesis of complex lipids, especially protaglandins in mammals [Monday's Molecule #227 ]. The winner is Bill Gunn.

This week's molecule (left) is an easy one for all of the undergraduates who are just beginning a new term. This is one of those molecules that everyone should recognize. Just be sure you pay attention to all the groups and the part in red. All you have to do is supply the common name and NOT the IUPAC systematic name that correctly identifies the exact molecule shown in the image. However, if anyone wants to supply the systematic name, feel free to do so.

Email your answer to me at: Monday's Molecule #228. I'll hold off posting your answers for at least 24 hours. The first one with the correct answer wins. I will only post the names of people with mostly correct answers to avoid embarrassment. The winner will be treated to a free lunch.

There could be two winners. If the first correct answer isn't from an undergraduate student then I'll select a second winner from those undergraduates who post the correct answer. You will need to identify yourself as an undergraduate in order to win. (Put "undergraduate" at the bottom of your email message.)

When I was a graduate student, there were several professors in adjacent labs who had a profound impact on me. One of them was brilliant at developing new techniques to answer fundamental questions. Unfortunately, the time and effort required to stay at the top of his field took a toll on his marriage and his wife left him ... with the children.

Another professor made important contributions to his field because he was able to look at things from a different perspective. He taught me to be skeptical of "prevailing dogma." Fifteen years later he committed suicide by jumping off the roof of his lab.

Time and Careercast.com have compiled a list of the ten least stressful jobs in America [The 10 Least Stressful Jobs in America]. The subtitle says, "If your job requires frequent travel and strict deadlines it won't make the cut."

Job site CareerCast published a list of the least stressful jobs yesterday based on measurements of 11 specific factors across 200 occupations. The factors it considered are whether the job requires travel (the more travel, the higher the stress), growth potential (dead-end jobs tend to create more stress), strict deadlines, working in the public eye, competitiveness within the organization, physical demands, environmental conditions, putting your life at risk, hazards encountered, meeting the public, and having someone else’s life in your hands.

University Professor is #4 on the list.

Most of my colleagues are working 60 hours a week and most of them are preparing grants for the next "strict deadline." Their careers could be over if they can't get funding for their lab. If you don't think they are stressed, then I invite you to visit your local university and see for yourself. It's too bad that the people at Careercast.com didn't bother to do the research. It doesn't inspire confidence in their business.

Professors have become adept at finding the cheapest flights to conferences and meetings. Many of them have to balance their time away from home with their responsibilities as parents. But travel is an essential part of a Professor's job.

Some of my colleagues are skipping dinner with their families in order to finish reading the thesis for this week's Ph.D. oral. That's a deadline that can't be avoided and they have a responsibility to the student. We are very used to having the future lives and careers of students depend on us. We're used to it but that doesn't make it any less stressful.

Speaking of stress, I wonder how many people at Time magazine have ever taught a large class of undergraduates? "Working in the public eye" seems to be part of a Professor's job and I can guarantee you that it's stressful—especially after the mid-term grades have been posted. (There are times when it seems like you are "putting your life at risk" but I don't want to compare this with firefighters and police officers who are really putting their lives at risk.) Speaking of strict deadlines ... I have a lecture tomorrow so I shouldn't be wasting time on this blog. It's going to get a lot worse next month when I have a pile of essays to grade and get back to the students in a timely manner.

Oh, I almost forgot. Two of my colleagues are up for tenure this semester. If you don't get tenure, you will be fired and the prospects of getting another job are slim. No stress there, right?

In fairness, Careercast.com specified "University Professor (tenured)" as the job that made the list. Here's what they say ...

The long road to becoming a tenured university professor is certainly challenging, too. For those who achieve tenured status, however, the rewards include job stability—a huge plus in a turbulent economy—and lucrative prospects. The College and University Professional Association for Human Resources reports that in the 2012-13 school year, tenured professors earned on average from $82,363 for Baccalaureate programs to $115,579 annually at research institutions and many professors receive top benefits such as tuition reimbursement for family members.

But the greater reward is sharing knowledge with their students.

Ultimately, a job’s reward trumps all other factors, including stress.

It's true that tenured University Professors have a great deal of job security as long as they continue to perform adequately. It's also true that professors earn higher than average salaries. It goes without saying that for most good paying jobs there are costs and benefits and the benefits must outweigh the costs or else nobody would do the job. (Duh!)

I love my job. So do most tenured professors. That does not mean that the job is one of the least stressful jobs in America. It means that the "job's reward trumps all other factors, including stress." I dare say that most people would not be able to handle the stress experienced by my younger, tenured, colleagues. You don't get to be a professor if you can't handle stress.

I don't want to exaggerate the stress and difficulty of being a University Professor but I do want to attack the common idea that it's a cushy high-paying job that almost anyone could handle if they were lucky enough to get hired.

Sunday, January 12, 2014

My granddaughter just turned four so it's time to learn about chemistry. Her first experiment was checking the pH of various household liquids. Here she is paying close attention to her Mom. Later on she got to mix things by herself. Read the full story—incuding where she teaches Mommy how to count—at: And so it begins.....SCIENCE.

The Canadian Broadcasting Corporation (CBC) aired an episode of The Fifth Estate on Friday night. I taped it and watched it yesterday between curling matches and the Canadian figure skating championships.1

The Fifth Estate program documents the shutting down of various government labs by the Conservative government of Stephen Harper. The title says it all: Silence of the Labs. Follow the link and you can watch the entire program. I highly recommend that you watch the first two minutes to get the gist of what's happening in Canada.

Here's part of the summary that appears on the CBC website ...

Scientists across the country are expressing growing alarm that federal cutbacks to research programs monitoring areas that range from climate change and ocean habitats to public health will deprive Canadians of crucial information.

"What’s important is the scale of the assault on knowledge, and on our ability to know about ourselves and to advance our understanding of our world," said James Turk, executive director of the Canadian Association of University Teachers.

In the past five years the federal government has dismissed more than 2,000 scientists, and hundreds of programs and world-renowned research facilities have lost their funding. Programs that monitored things such as smoke stack emissions, food inspections, oil spills, water quality and climate change have been drastically cut or shut down.

The fifth estate requested interviews with two senior bureaucrats and four cabinet ministers with responsibility for resources, the environment and science. All of those requests were denied.

On Tuesday, the fifth estate received a statement from the office of Greg Rickford, Minister of State for Science and Technology, and the Federal Economic Development Initiative for Northern Ontario.

"Our government has made record investments in science," it stated. "We are working to strengthen partnerships to get more ideas from the lab to the marketplace and increase our wealth of knowledge. Research is vibrant and flourishing right across the country."

But members of the scientific community disagree. CBC’s the fifth estate spoke to scientists across the country who are concerned that Canadians will suffer if their elected leaders have to make policy decisions without the benefit of independent, fact-based science.

The CBC is a crown corporation. That means it has to report to a branch of the government and some its Board of Directors are government appointees. A lot of its funding comes from the Federal Government.

You probably won't be surprised to learn that the CBC is also under attack from the Harper government. I don't think that pressure is going to diminish once Conservative MPs see this program.

[Photo Credit: I took this picture during a protest on Parliament Hill in July 2012. There are videos in the Fifth Estate program but I didn't see any glimpses of me of any of my friends.]

1. So many exciting things on television—one has to have priorities. I don't watch the Leafs any more.

Evolution is a main concept in biology, but not many students understand how it works. In this article we introduce the game DNA Re-EvolutioN as an active learning tool that uses genetic concepts (DNA structure, transcription and translation, mutations, natural selection, etc.) as playing rules. Students will learn about molecular evolution while playing a game that mixes up theory and entertainment. The game can be easily adapted to different educational levels. The main goal of this play is to arrive at the end of the game with the longest protein. Students play with pawns and dices, a board containing hypothetical events (mutations, selection) that happen to molecules, “Evolution cards” with indications for DNA mutations, prototypes of a DNA and a mRNA chain with colored “nucleotides” (plasticine balls), and small pieces simulating t-RNA with aminoacids that will serve to construct a “protein” based on the DNA chain. Students will understand how changes in DNA affect the final protein product and may be subjected to positive or negative selection, using a didactic tool funnier than classical theory lectures and easier than molecular laboratory experiments: a flexible and feasible game to learn and enjoy molecular evolution at no-cost. The game was tested by majors and non-majors in genetics from 13 different countries and evaluated with pre- and post-tests obtaining very positive results.

I would be embarrassed to present this game to students at the University of Toronto. It seems more suitable for adolescents who are just learning about evolution in high school.

What do you think? Is this a suitable class experience for students at your university?

The latest issue of Biochemistry and Molecular Biology Education (BAMBED) has a list of "Websites of Note." One of them is Memorize.com. Here's what the BAMBED says about this site ...

You may be impressed or appalled that this site reduces biochemistry to the basics for rote learning. Type biochemistry into the search box associated with Learn on the home page. You will then discover numerous pages created by individual students who have listed prompts and answers to help in their biochemistry studies. Mostly the tabulations of pathways and facts are excellent and accurate. Try Laura Wright's page at memorize.com/biochemistry-metabolism-1/laurawright. The memorization protocol is simple, but effective. After declaring that you have memorized a table you will be tested and at the prompt you answer mentally or on paper, not by entering an answer. You then get to reveal the answer and tell the program whether your recall was correct. Continue as required until all propositions are memorized and can be answered correctly. Pavlov and Skinner would endorse the approach. If a student is pestering with the question "what else can I do to prepare for the exam?" then recommending this site may be the answer.

Better BiochemistryA concept driven course is incompatible with rote memorization and regurgitation of facts. No respectable teacher—and no reader of BAMBED—should ever send students to the memorize.com website.

According to ASMBM the The five core concept categories are:

Evolution

matter and energy transformation

homeostasis

biological information

macromolecular structure and function

While I disagree with the way the evolution concept is described [ASBMB Core Concepts in Biochemistry and Molecular Biology: Evolution], I agree that it is important to teach biochemistry from an evolutionary perspective. I'm interested in knowing how biochemistry is taught at other schools and that's why I often look at websites such as memorize.com where students post what they think is important.

What I see at memorize.com is appalling. It's clear that students who are posting there have taken courses that focus exclusively on rat liver metabolism and human biochemistry. There's no evolutionary approach visible in any of the student websites. Not only that, many of these students seem to be fixated on something called the "rate-limiting step" in various pathways. Where does that come from? Is there a textbook that teaches like that?

There are people out there who actually think that as soon as an undergraduate finishes a biochemistry course they become an expert. This is the only explanation for all the favorable references to biochemistry websites constructed by teenagers who don't even have an undergraduate degree. (Many of them are directed at pre-med students who are preparing for the MCAT.)

The first box tells us where various pathways are located in the cell. Of course, we're talking about animal cells, not bacteria or plants (photosynthesis isn't mentioned). We learn that protein synthesis takes place in the "RER.". I had to look that up ... it means "rough endoplasmic reticulum." I'd love to know who taught her that. Only a small subset of proteins enter the endoplasmic reticulum. The vast majority of protein synthesis takes place in the cytoplasm.

Students taking a rote memorization course often have to memorize the number of ATP equivalents produced when glucose is oxidized to CO2. This number is 32 ATP equivalents in bacteria and less in eukaryotes. It depends on a number of estimates, especially the number of ATP equivalents produced when electrons from NADH pass through the membrane-associated electron transport system (should be 2.5). Laura Wright says,

This is not what I teach in my textbook but the point is that the "correct" answer on a multiple choice test will not depend on what I think or what Laura Wright thinks. She thinks that the citric acid cycle produces 24 ATP equivalents, I think it produces 20 ATP equivalents, and who know what YOUR professor thinks.

If biochemistry is properly taught from concepts then every student would understand the problems with these estimates and would be able to explain the assumptions behind the calculations.

It's sad to see the sorts of things that students have to memorize. Apparently, many of them have to memorize the names of metabolic diseases (e.g. Niemann-Pick disease) and the symptoms. I think they're also expected to memorize the names of enzymes.

The Clergy Letter Project is sponsoring the 9th annual "Evolution Weekend" on February 7-0 2014. This is a weekend where clergy talk to their congregations about science and evolution. Here's how they describe the event ...

Evolution Weekend is an opportunity for serious discussion and reflection on the relationship between religion and science. An ongoing goal has been to elevate the quality of the discussion on this critical topic, and to show that religion and science are not adversaries. Rather, they look at the natural world from quite different perspectives and ask, and answer, different questions.

Maybe it's just me, but I thought that "serious discussion and reflection" means that all aspects of the conflict between science and religion would be considered. This includes the possibility that the conflict is very real and cannot be accommodated.

I was wrong. If you are a member of the Clergy Letter Project your mind is already made up.

Because religion and science use different methodologies to understand the world, and because religion and science ask very different questions, there is no reason to view them in conflict. One important facet of Evolution Weekend 2014, therefore, is to explore the questions each ask and to examine the different ways of knowing embodied in each.

There's not going to be any serious discussion about different ways of knowing and which ones are successful.

One of the most important lessons of science is that life evolved from simple primitive organisms over a period of at least three billion years. The history of life can be fully explained by natural causes without any need for miracles or divine intervention. We have learned that the evolution of life on this insignificant planet, in an ordinary galaxy, in a vast universe, has no purpose or goal.

My department is in a Faculty of Medicine and the main source of research funding for biomedical sciences in Canada is the Canadian Institutes of Health Research (CIHR). The current Conservative Government has been consistently underfunding CIHR over the past six years so that the number of grants available for basic research (e.g. biochemistry and molecular biology) has been falling.

This is the time of the year when my colleagues hear the results of the latest grant competitions. It's been a sad couple of days because four labs failed to get funding for their main research projects. Eight other labs failed to get additional funding for ongoing projects that were not part of their main grant.

What does this mean? Let's think about the consequences for labs that lose their grants. In the short term, the lab will survive until the next application deadline but it means that the Professor running the lab can't take on any new graduate students or post-docs no matter how brilliant they might be. In some cases, the department, or the university, might have to provide "bridging" funds in order to pay the salaries and stipends of people in the lab. If the Professor manages to get the grant back in the next competition then a recovery is possible but a lot of damage has already been done.

However, in many cases the second or third attempts to recover funding are not successful and the lab must shut down. That's the situation we face in our department with several active research groups that have disappeared or are about to disappear.

The first people to be let go are the post-docs who are funded from the grant. They have to scramble to find a new position and this isn't easy. It could be the end of their career.

The most expensive people in the lab are the research technicians ($50-60,000 per year1). They have to be put on notice and they will be fired. These are scientists with advanced degrees who are the heart and soul of a research lab. They are mostly women in mid-career. Many of them will never find another position that pays as well.

Graduate students who are close to finishing can usually be helped but those at the beginning of their studies have to switch to another lab and start a new project. This may not be possible.

Our research labs have two or three undergraduate students doing research projects as part of their degree requirements. As we lose more and more active labs, we also lose the ability to train undergraduates. We also hire undergraduate to work in labs over the summer and this provides invaluable experience in preparation for graduate school. If you don't have a funded lab you can't hire students. If you lose part of your funding, the easiest way to save money is not to hire anyone.

The groups that are losing their grants are the backbone of Canadian research infrastructure. The typical lab has three or four graduate students, a post-doc, and a research technician (research associate, lab manager). It takes about $150,000 per year to sustain such a lab. The Professor who runs the lab is usually between 30 and 40 years old (mid-career). The lab is producing several papers a year in respectable journals. These labs would easily have been funded a decade ago when the success rate on grant applications was 25% but now that it's down to 15% they are being cut out of the system.

Even those labs that are still funded are affected when a colleague loses a grant. That's because there's a lot of sharing of equipment and resources and expertise. We can foresee a time when the department falls below a critical mass of active research labs and when that happens everyone will lose their grants. Morale is already at an all-time low. Students and faculty are more worried about survival than science.

A generation of mid-career scientists is being destroyed by the policies of the Canadian government. Graduate students, post-docs, technicians, and undergraduates are being affected. It might take another generation to recover if funding were to return to appropriate levels. We might never recover if something isn't done soon.

Here at the University of Toronto we used to talk about becoming a world-class research centre. We don't talk about that very much any more.

Charles Darwin's Tree of Life metaphor (from 1859) has become world-famous. However, Alfred Russel Wallace, who independently developed the idea of evolution by means of natural selection, had already used a very similar image in 1855, when he noted: "the analogy of a branching tree [is] the best mode of representing the natural arrangement of species ... a complicated branching of the lines of affinity, as intricate as the twigs of a gnarled oak ... we have only fragments of this vast system, the stem and main branches being represented by extinct species of which we have no knowledge, while a vast mass of limbs and boughs and minute twigs and scattered leaves is what we have to place in order, and determine the true position each originally occupied with regard to the others".

This past year has been one in which many people commemorated the death of Wallace (1823-1913), and so it seems appropriate to join them for the final summary of 2013's posts at the Carnival of Evolution.

The next Carnival of Evolution will be at Byte Size Biology. Nobody has volunteered to host the February edition.

If you want to host a Carnival of Evolution please contact Bjørn Østman. Bjørn is always looking for someone to host the Carnival of Evolution. He would prefer someone who has not hosted before but repeat hosts are more than welcome right now! Bjørn is threatening to name YOU as host even if you don't volunteer! Contact him at the Carnival of Evolution blog. You can send articles directly to him or you can submit your articles at Carnival of Evolution although you now have to register to post a submission. Please alert Bjørn or the upcoming host if you see an article that should be included in next month's. You don't have to be the author to nominate a post.

Stamatoyannopoulos is one of the ENCODE workers. He recently gave a talk at the University of Toronto where he defended the idea that pervasive transcription and pervasive transcription factor binding are evidence of widespread function in the human genome. This paper looks at transcription factor binding sites in exon sequences (coding sequences) and finds lots of them. What this means is that stretches of coding region contain codons AND transcription factor binding sites (duh!).

Laurence A. Moran

Larry Moran is a Professor Emeritus in the Department of Biochemistry at the University of Toronto. You can contact him by looking up his email address on the University of Toronto website.

Sandwalk

The Sandwalk is the path behind the home of Charles Darwin where he used to walk every day, thinking about science. You can see the path in the woods in the upper left-hand corner of this image.

Disclaimer

Some readers of this blog may be under the impression that my personal opinions represent the official position of Canada, the Province of Ontario, the City of Toronto, the University of Toronto, the Faculty of Medicine, or the Department of Biochemistry. All of these institutions, plus every single one of my colleagues, students, friends, and relatives, want you to know that I do not speak for them. You should also know that they don't speak for me.

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Quotations

The old argument of design in nature, as given by Paley, which formerly seemed to me to be so conclusive, fails, now that the law of natural selection has been discovered. We can no longer argue that, for instance, the beautiful hinge of a bivalve shell must have been made by an intelligent being, like the hinge of a door by man. There seems to be no more design in the variability of organic beings and in the action of natural selection, than in the course which the wind blows.Charles Darwin (c1880)Although I am fully convinced of the truth of the views given in this volume, I by no means expect to convince experienced naturalists whose minds are stocked with a multitude of facts all viewed, during a long course of years, from a point of view directly opposite to mine. It is so easy to hide our ignorance under such expressions as "plan of creation," "unity of design," etc., and to think that we give an explanation when we only restate a fact. Any one whose disposition leads him to attach more weight to unexplained difficulties than to the explanation of a certain number of facts will certainly reject the theory.

Charles Darwin (1859)Science reveals where religion conceals. Where religion purports to explain, it actually resorts to tautology. To assert that "God did it" is no more than an admission of ignorance dressed deceitfully as an explanation...

Quotations

The world is not inhabited exclusively by fools, and when a subject arouses intense interest, as this one has, something other than semantics is usually at stake.
Stephen Jay Gould (1982)
I have championed contingency, and will continue to do so, because its large realm and legitimate claims have been so poorly attended by evolutionary scientists who cannot discern the beat of this different drummer while their brains and ears remain tuned to only the sounds of general theory.
Stephen Jay Gould (2002) p.1339
The essence of Darwinism lies in its claim that natural selection creates the fit. Variation is ubiquitous and random in direction. It supplies raw material only. Natural selection directs the course of evolutionary change.
Stephen Jay Gould (1977)
Rudyard Kipling asked how the leopard got its spots, the rhino its wrinkled skin. He called his answers "just-so stories." When evolutionists try to explain form and behavior, they also tell just-so stories—and the agent is natural selection. Virtuosity in invention replaces testability as the criterion for acceptance.
Stephen Jay Gould (1980)
Since 'change of gene frequencies in populations' is the 'official' definition of evolution, randomness has transgressed Darwin's border and asserted itself as an agent of evolutionary change.
Stephen Jay Gould (1983) p.335
The first commandment for all versions of NOMA might be summarized by stating: "Thou shalt not mix the magisteria by claiming that God directly ordains important events in the history of nature by special interference knowable only through revelation and not accessible to science." In common parlance, we refer to such special interference as "miracle"—operationally defined as a unique and temporary suspension of natural law to reorder the facts of nature by divine fiat.
Stephen Jay Gould (1999) p.84

Quotations

My own view is that conclusions about the evolution of human behavior should be based on research at least as rigorous as that used in studying nonhuman animals. And if you read the animal behavior journals, you'll see that this requirement sets the bar pretty high, so that many assertions about evolutionary psychology sink without a trace.

Jerry Coyne
Why Evolution Is TrueI once made the remark that two things disappeared in 1990: one was communism, the other was biochemistry and that only one of them should be allowed to come back.

Sydney Brenner
TIBS Dec. 2000
It is naïve to think that if a species' environment changes the species must adapt or else become extinct.... Just as a changed environment need not set in motion selection for new adaptations, new adaptations may evolve in an unchanging environment if new mutations arise that are superior to any pre-existing variations

Douglas Futuyma
One of the most frightening things in the Western world, and in this country in particular, is the number of people who believe in things that are scientifically false. If someone tells me that the earth is less than 10,000 years old, in my opinion he should see a psychiatrist.

Francis Crick
There will be no difficulty in computers being adapted to biology. There will be luddites. But they will be buried.

Sydney Brenner
An atheist before Darwin could have said, following Hume: 'I have no explanation for complex biological design. All I know is that God isn't a good explanation, so we must wait and hope that somebody comes up with a better one.' I can't help feeling that such a position, though logically sound, would have left one feeling pretty unsatisfied, and that although atheism might have been logically tenable before Darwin, Darwin made it possible to be an intellectually fulfilled atheist

Richard Dawkins
Another curious aspect of the theory of evolution is that everybody thinks he understand it. I mean philosophers, social scientists, and so on. While in fact very few people understand it, actually as it stands, even as it stood when Darwin expressed it, and even less as we now may be able to understand it in biology.

Jacques Monod
The false view of evolution as a process of global optimizing has been applied literally by engineers who, taken in by a mistaken metaphor, have attempted to find globally optimal solutions to design problems by writing programs that model evolution by natural selection.